QoS-driven energy-efficient power control with Markov arrivals and finite-alphabet inputs

2016 IEEE International Symposium on Information Theory (ISIT) Pub Date : 2016-08-11 DOI:10.1109/ISIT.2016.7541803

Gozde Ozcan, Mustafa Ozmen, M. C. Gursoy

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引用次数: 2

Abstract

This paper proposes optimal power adaptation schemes that maximize the energy efficiency (EE) in the presence of Markovian sources and finite-alphabet inputs subject to quality of service (QoS) constraints. First, maximum average arrival rates supported by transmitting signals with arbitrary input distributions are characterized in closed-form by employing the effective bandwidth of time-varying sources (e.g., discrete-time Markov and Markov fluid sources) and effective capacity of the time-varying wireless channel. Subsequently, EE is defined as the ratio of the maximum average arrival rate to the total power consumption, in which circuit power is also taken into account. Following these characterizations, an optimization problem is formulated to maximize the EE of the system, and optimal power control schemes are determined. Through numerical results, the performance of the optimal power control policies is evaluated for different signal constellations and is also compared with that of constant power transmission. The impact of QoS constraints, source characteristics, input distributions on the maximum achievable EE and the throughput is analyzed.

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具有马尔可夫到达和有限字母输入的qos驱动节能功率控制

本文提出了在马尔可夫源和受服务质量(QoS)约束的有限字母输入存在的情况下最大化能源效率(EE)的最优功率自适应方案。首先，利用时变源(如离散马尔可夫和马尔可夫流体源)的有效带宽和时变无线信道的有效容量，以封闭形式表征具有任意输入分布的传输信号所支持的最大平均到达率。随后，EE被定义为最大平均到达率与总功耗之比，其中也考虑了电路功率。根据这些特征，制定了优化问题，以最大化系统的EE，并确定了最优功率控制方案。通过数值计算，对不同信号星座下的最优功率控制策略进行了性能评价，并与恒功率传输的最优功率控制策略进行了比较。分析了QoS约束、源特性、输入分布对最大可实现EE和吞吐量的影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2016 IEEE International Symposium on Information Theory (ISIT)

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